HEAD FOR A SURFACE CLEANING DEVICE

Abstract
A surface cleaning device including a head including an inlet in fluid communication with a fluid tank and a suction source. The inlet is configured to receive a cleaning fluid from a surface. The head further includes an inlet extension member that at least partially surrounds the inlet, the inlet extension member including an opening and the inlet extension member movable with respect to the inlet between a first position and a second position. In the first position, the inlet is closer to the surface than the opening of the inlet extension member and in the second position, the opening of the inlet extension member is closer to the surface than the inlet.
Description
BACKGROUND

The present invention relates to a head for a surface cleaning device. In some embodiments the invention may relate to a head for an upright surface cleaning device. In other embodiments the invention may relate to a head for a hand-held surface cleaning device or the like. Such surface cleaning devices are often referred to as “wet vacuum cleaners”.


It is known to provide surface cleaning devices that operate both on hard (e.g. wooden or vinyl) and on soft (e.g. carpet) floor surfaces. However, a problem with such devices is that they are not configured to readily interchange between a hard floor cleaning mode and a soft floor cleaning mode.


SUMMARY

Embodiments of the present invention seek to provide a head for a surface cleaning device that seeks to overcome, or at least substantially reduce, the disadvantages associated with known surface cleaning heads.


In one aspect of the invention, we provide a head for a surface cleaning device, the head including:


an inlet for receiving dirt-laden fluid from a surface; and


an inlet extension member,


wherein the inlet extension member is movable with respect to the inlet between first and second positions.


In a second aspect of the invention, we provide a head for a surface cleaning device, the head including:


an inlet for receiving dirt-laden fluid from a surface;


an inlet extension member;


at least one agitator; and


at least one wheel for supporting the inlet extension member on the surface,


wherein the or each wheel is located between the inlet extension member and the at least one agitator.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 shows a perspective view of a surface cleaning device including a head according to an embodiment of the present invention;



FIG. 2 shows a perspective view of a head according to an embodiment of the present invention;



FIG. 3 shows a bottom view of a head according to an embodiment of the present invention;



FIG. 4 shows a front view of a head according to an embodiment of the present invention in a first configuration;



FIG. 5 shows a front view of a head according to an embodiment of the present invention in a second configuration;



FIG. 6 shows a side view of a head according to an embodiment of the present invention in a first configuration;



FIG. 7 shows a side view of a head according to an embodiment of the present invention in a second configuration;



FIG. 8 shows a cutaway view of a head according to an embodiment of the present invention;



FIG. 9 shows a cross sectional view of a head according to an embodiment of the present invention in a first configuration; and



FIG. 10 shows a cross sectional view of a head according to an embodiment of the present invention in a second configuration.





DETAILED DESCRIPTION

With reference to FIG. 1 there is shown an embodiment of a surface cleaning device, indicated generally at 1, including a head 10 and an upright support 11. The upright support 11 may be pivotable with respect to the head 10 about an axis extending between a pair of wheels 13 located rearwardly of the head 10.


The device 1 may include a handle 16 and a trigger 17. The device 1 may also include a housing 12 including first 120 and second 121 fluid tanks. Typically, the first fluid tank 120 is for receiving a cleaning solution and the second fluid tank 121 is for recovering dirty fluid. The first 120 and second 121 fluid tanks may be removably mounted to the housing 12.


The device 1 may be operated in various modes. For instance, the device 1 may be used as an upright cleaner to clean hard or soft floor surfaces. Additionally, the device 1 may be used to clean above floor surfaces—for example, by connecting the hose of a wand (not shown) to a port (shown closed in the figures by a cap 14) and by connecting a fluid delivery hose of a wand (not shown) to port 15. In such above floor cleaning modes, suction is redirected from the head 10 to the hose in a manner known in the art, to permit a user to clean above floor surfaces using the wand.



FIGS. 2 to 7 show views of the head 10 in more detail. The head 10 includes a body 100. The head 10 also includes an inlet 101 for receiving dirt-laden fluid from a surface. The inlet 101 is fixed with respect to the body 100. The head 10 may include a rotatably driven brush bar 103 extending from one side of the body 100 to the other. The rotatably driven brush bar 103 preferably includes hard bristles and may include a combination of hard and soft bristles. In the illustrated embodiment a single rotatably driven brush bar 103 is shown. However, it is to be appreciated that in other embodiments the head 10 may include more than one rotatably driven brush bar 103. Indeed, some embodiments may not include any rotatably driven brush bars 103. The head 10 may also include one or more trailing brushes 104 located rearwardly of the rotatably driven brush bar 103. The trailing brushes 104 are configured to rotate about a vertical axis with respect to the surface. The trailing brushes 104 preferably include soft bristles. In the illustrated embodiment there are shown five trailing brushes 104. However, it is to be appreciated that in other embodiments the head 10 may include fewer or greater than five trailing brushes 104. Indeed, some embodiments may not include any trailing brushes 104.


The head 10 includes an inlet extension member 102 which preferably surrounds the inlet 101. In some embodiments the inlet extension member 102 may only partially surround the inlet 101. Indeed, in some embodiments (not shown) the inlet extension member 102 may not surround the inlet 101, but instead the inlet extension member 102 may be located around at least a part of the inside of the inlet 101.


Referring now to FIG. 8 the head 10 includes a frame, indicated generally at 106. The frame 106 includes a part 1061 which connects a pair of spaced apart ends 1062a, 1062b. The ends 1062a, 1062b are curved to accommodate respective ends of the rotatably driven brush bar 103. The inlet extension member 102 is supported by the frame 106 along the length of the part 1061. The frame 106 may be pivotably mounted to the body 100 about a pivot axis 107. It is to be understood that since the inlet 101 is fixed with respect to the body 100 and the inlet extension member 102 is supported by the frame 106, it will follow that the inlet extension member 102 is movable with respect to the inlet 101 about the pivot axis 107 between first and second positions.



FIGS. 4, 6 and 9 show the inlet extension member 102 in the first position and FIGS. 5, 7 and 10 show the inlet extension member 102 in the second position. When the inlet extension member 102 is moved towards the first position, the inlet 101 is locatable closer to a surface to be cleaned than an opening 1021 of the inlet extension member 102. Conversely, when the inlet extension member 102 is moved towards the second position, the opening 1021 of the inlet extension member 102 is locatable closer to the surface to be cleaned than the inlet 101.


Referring back to FIG. 8, the head 10 may also include one or more resilient biasing means 110 located between the body 100 and the frame 106. In the illustrated embodiment the resilient biasing means 110 takes the form of a pair of helical springs, one spring located at one end 1062a of the frame 106 and the other helical spring (not shown) located at the other end 1062b of the frame 106. In some embodiments fewer or greater than a pair of helical springs may be utilised. In some embodiments, it is envisaged that the resilient biasing means 110 may take other forms, such as a leaf spring or the like. The resilient biasing means 110 urges the frame 106, and hence the inlet extension member 102, towards the first position.


In order to permit movement of the inlet extension member 102 between the first and second positions, the head 10 is provided with an actuator, indicated generally at 108, which is movable between first and second actuator positions. In the illustrated embodiment the actuator 108 includes a pivot axle 1081 which connects a pair of spaced apart cams 1082a, 1082b. Each cam 1082a, 1082b has associated therewith a respective cam follower 109a, 109b formed within the frame 106. Each cam follower 109a, 109b has first 1091a, 1091b and second 1092a, 1092b cam follower surfaces. Each first cam follower surface 1091a, 1091b is configured to receive the respective cam 1082a, 1082b when the actuator 108 is moved between the first and second actuator positions, thereby causing the frame 106 to pivot about the pivot axis 107 between the first and second positions. Movement of the actuator 108 towards the second actuator position overcomes the resilient biasing means 110, thereby urging the frame 106, and hence the inlet extension member 102, towards the second position. Each second cam follower surface 1092a, 1092b is configured to receive and hold the respective cam 1082a, 1082b, thereby locking the inlet extension member 102 in the second position. In order to move the inlet extension member 102 back to the first position each cam 1082a, 1082b may be unlocked by moving the actuator 108 towards the first actuator position. This causes each cam 1082a, 1082b to come into contact with the respective first cam follower surface 1091a, 1091b and the resilient biasing means 110 urges the frame 106, and hence the inlet extension member 102, towards the first position.


The actuator 108 may include a handle 1083, so that the actuator 108 may be manually operated by a user. However, whilst the figures teach that the actuator 108 may be manually operated by a user, it is envisaged that the actuator 108 may be electronically driven, for instance by utilising a solenoid. The actuator 108 may take different forms. For instance, whilst the figures show a pair of spaced apart cams 1082a, 1082b and a pair of respective cam followers 109a, 109b, there need only be a single cam and cam follower arrangement. Furthermore, whilst the figures teach that the actuator 108 includes the cams 1082a, 1082b and the frame 106 includes the cam followers 109a, 109b, this arrangement could be the other way around without departing from the scope of the invention.


The head 10 may also include at least one wheel 111 for supporting the inlet extension member 102 when the inlet extension member is in the second position. The embodiment shown in the figures includes a pair of wheels 111, one wheel 111 being located towards one end of the inlet extension member 102 and the other wheel 111 being located towards the other end. In some embodiments a single wheel may be provided along the length of the inlet extension member 102 or, alternatively, a plurality of spaced apart wheels may be provided. The wheels 111 may be connected to the frame 106. Advantageously, the wheels 111 may be located between the inlet extension member 102 and the rotatably driven brush bar 103, so that the wheels 111 are positioned directly adjacent to the inlet extension member 102 to provide support for the inlet extension member 102 when in the second position. The inlet extension member 102 is typically formed from a rubber and is therefore inherently flexible. Advantageously, the wheel 111 provides support for the inlet extension member 102 when the inlet extension member 102 is in the second position.


Referring now to FIG. 2, the inlet extension member 102 may include a wall 1022 having one or more openings 1023 provided therein to permit the flow of fluid from outside the inlet extension member 102 to the inlet 101. Advantageously, the or each opening 1023 improves the suction capability of the inlet extension member 102 when in contact with a surface to be cleaned.


Additionally or alternatively, the wall 1022 may include a plurality of ribs 1024 located around at least a part of a periphery of the wall 1022. The gaps between the ribs 1024 have a similar effect to the openings 1023 in that they deform to permit fluid to flow from outside the inlet extension member 102 to the inlet 101.


Operation of the head 10 will now be described with reference to FIGS. 9 and 10. FIG. 9 shows the head 10 in a soft floor cleaning mode, whereby the inlet extension member 102 is resiliently biased towards the first position. The inlet 101 is located closer to the surface 1000 than the inlet extension member 102 when the head 10 is being used. Furthermore, the rotatably driven brush bar 103 and the trailing brushes 104 are in contact with the surface 1000 so as to agitate the surface during cleaning. FIG. 10 shows the head 10 in a hard floor cleaning mode, where the inlet extension member 102 is in the second position. In this configuration, the opening 1021 of the inlet extension member 102 is located closer to the surface 1000 than the inlet 101 when the head 10 is being used. Indeed, the opening 1021 is in contact with the surface 1000 and a passageway 1025 provides a flow path for the dirt-laden fluid between the opening 1021 and the inlet 101. Furthermore, the rotatably driven brush bar 103 is raised from the surface 1000. Advantageously, this configuration avoids hard surfaces from become damaged or scratched. The trailing brushes 104 are mounted such that they always remain in contact with the surface 1000 when the device 1 is being used. In other words, the trailing brushes 104 are mounted such that their height is adjustable. Therefore, when the inlet extension member 102 is in the second position the trailing brushes 104 hang from the device so as to remain in contact with the surface 1000. Since the bristles of the trailing brushes 104 are typically soft there is little or no concern that a hard floor surface will become damaged or scratched as a result of the contact between the trailing brushes 104 and the surface 1000.


In hard or soft floor cleaning mode, cleaning solution is typically dispensed from the first fluid tank 120 by operation of the trigger 17. The cleaning solution is sprayed from one or more ports (not shown) onto the surface to be cleaned. Suction is applied to the inlet 101 by a motor 105. The rotatably driven brush bar 103 and trailing brushes 104 agitate the cleaning solution and dirt-laden fluid subsequently flows through the inlet 101 and via flow path 103 to the second fluid tank 121, where it can be disposed by the user.


When used in this specification and claims, the terms “comprises” and “comprising” and variations thereof mean that the specified features, steps or integers are included. The terms are not to be interpreted to exclude the presence of other features, steps or components.


The features disclosed in the foregoing description, or the following claims, or the accompanying drawings, expressed in their specific forms or in terms of a means for performing the disclosed function, or a method or process for attaining the disclosed result, as appropriate, may, separately, or in any combination of such features, be utilised for realising the invention in diverse forms thereof. CLAIMS

Claims
  • 1. A surface cleaning device comprising: a suction source;a first fluid tank configured to store a cleaning fluid that is dispensed onto a surface to be cleaned;a second fluid tank in fluid communication with the suction source and configured to store the cleaning fluid recovered from the surface by the suction source; anda head including, an inlet in fluid communication with the second fluid tank and the suction source, the inlet configured to receive the cleaning fluid from the surface;an inlet extension member that at least partially surrounds the inlet, the inlet extension member including an opening and the inlet extension member movable with respect to the inlet between a first position and a second position,wherein in the first position, the inlet is closer to the surface than the opening of the inlet extension member, andwherein in the second position, the opening of the inlet extension member is closer to the surface than the inlet.
  • 2. The surface cleaning device of claim 1, wherein the head further includes, a body, anda frame,wherein the inlet extension member is supported by the frame and the frame is movably connected to the body so as to be movable with respect to the inlet to move the inlet extension member between the first and the second positions.
  • 3. The surface cleaning device of claim 1, wherein the inlet extension member includes a passageway that provides a flow path for the cleaning fluid between the opening of the inlet extension member and the inlet when the inlet extension member is in the second position.
  • 4. The surface cleaning device of claim 1, wherein the inlet extension member surrounds the inlet.
  • 5. The surface cleaning device of claim 1, wherein the head includes a biasing member for urging the inlet extension member toward the first position.
  • 6. The surface cleaning device of claim 5, wherein the head includes an actuator movable between a first actuator position where the inlet extension member is in the first position and a second actuator position where the inlet extension member is in the second position, wherein actuation of the actuator from the first actuator position to the second actuator position overcomes the biasing member to move the inlet extension member toward the second position.
  • 7. The surface cleaning device of claim 6, wherein the actuator is manually driven between the first and second actuator positions.
  • 8. The surface cleaning device of claim 6, wherein the actuator is electronically driven between the first and second actuator positions.
  • 9. The surface cleaning device of claim 1, wherein the head includes an agitator.
  • 10. The surface cleaning device of claim 9, wherein the agitator includes a rotatably driven brush bar.
  • 11. The surface cleaning device of claim 10, wherein the head includes a wheel for supporting the inlet extension member on the surface, wherein the wheel is located between the rotatably driven brush bar and the inlet extension member.
  • 12. The surface cleaning device of claim 9, wherein the agitator is contactable with the surface when the inlet extension member is moved towards the first position and raisable from the surface when the inlet extension member is moved towards the second position.
  • 13. The surface cleaning device of claim 9, wherein the agitator is coupled to the inlet extension member such that the agitator moves with the inlet extension member relative to the inlet.
  • 14. The surface cleaning device of claim 9, wherein the agitator includes a trailing brush configured to rotate about a vertical axis with respect to the surface.
  • 15. The surface cleaning device of claim 14, wherein the trailing brush is contactable with the surface when the inlet extension member is moved towards the first and second positions.
  • 16. The surface cleaning device of claim 1, wherein the inlet extension member includes a wall having an opening provided therein to permit the flow of fluid from outside the inlet extension member to the inlet.
  • 17. The surface cleaning device of claim 16, wherein the wall includes a plurality of ribs located around at least a part of a periphery of the wall.
  • 18. The surface cleaning device of claim 1, further comprising a housing and a handle, the housing and the handle pivotally coupled to the head.
  • 19. The surface cleaning device of claim 18, wherein the first fluid tank is coupled to the housing for pivotal movement with the housing relative to the head.
  • 20. The surface cleaning device of claim 19, wherein the second fluid tank is coupled to the housing for pivotal movement with the housing relative to the head.
Priority Claims (1)
Number Date Country Kind
1401131.6 Jan 2014 GB national
CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 15/112,754, filed Jul. 20, 2016, which issued as U.S. Pat. No. 10,070,762 on Sep. 11, 2018, which is a U.S. national phase of International Patent Application No. PCT/GB2014/050358, filed Feb. 7, 2014, which claims priority to UK Patent Application No. 1401131.6, filed Jan. 23, 2014, the entire contents all of which are hereby incorporated by referenced herein.

Continuations (1)
Number Date Country
Parent 15112754 Jul 2016 US
Child 16126719 US